SCIENTIFIC ABSTRACT DUYSEMALIYEV, U.K. - DUZHENKOV, V.I.

IA ~ 5'En") AL j yF, 8221-9 Ir"2S-D 3/031/60/000/006/002/004 AUTHORSi. Savitskiy, Ye.M.; Duysemaliyev, U.K. TITLE: The Effect of VanadiumIn the Properties of Industrial Kirkel- IF- Base Alloys PERIODICALj Vestnik akademii nauk Kazakhskoy SSR, 1960, No. 6, pp. 43 - 47 TEXT3 The authors describe experiments carried out to qetermine the effect of vanadium on structure and properties of Monel met"Yand constant- an* The alloys were prepared at the Balkhashakiy zavod po obrabotke tBvet-' nykh metallov (Balkhash Non-Ferrous Metal Working Plant) and the vanadium was introduced in the form of a Ni + 10elo V alloy. They were tested as to microstructure, hardness, electric resistance, strength and plasticity dur- ing stretching. The stretching tests were carried out at temperatures of from 20 to 1,10000. Additions of vanadium of up to 0*5% had no effect on the microstructure of either the Monel metal or the constantan. Measuring the hardness of the alloys in the deformed and tempered phases showed that introduction of up to 0.%o vanadium had no efftet on the hardness of the Monel metal and slightly increased the hardness of the constantan. The va- Card 1/2  82219 310311601000100610021004 The Effects of Vanadium on the Properties of Industrial Nickel-Base Alloys nadium slightly raised the electric resistance of both alloyag and increased their strength and plasticity at all temperatures in the tests. The most remarkable affect of the vanadium, in the opinion of 'the authors, was that on the plasticity of the alloys, At 400 - 8000C this increase was 1.5 - 2 times, a fact of great scientific interest which makes it possible to reduce or even entirely eliminate the temperature zones of brittleness of nickel alloys by alloying them with small quantities of vanadium and certain other rare metals. The authors recommend more extensive tests on the effect of vanadium on nickel-based alloys. Conditions and results of the tests are shown in tables and graphs. There are 4 tables, 2 figures and 3 referencest 2 Soviet and 1 French. Card 2/2  s/136/60/000/011/011/013 E193/E483 AUTHORS- Presnyakov, A.A.s Duysemaliyevo U.K. and Mironeako, YU.P. TITLE: On Plasticityof Some Zinc-Base Alloys VI PERIODICALs Tsvetnyye metaily, ig6o, No.11, pp.76-81 TEXTs The object of the investigation, described in the present paper, was to obtain data on plasticity (as measured by the reduction in area of tensile test pieces) of zinc-rich binary alloys'containing 0 - 5.576 X1, 0 - 3.0% Cu, 0 - 3.0% Fb and 0 - 10.0% Cd both in the as-east and homogenized condition. The test pieces, with the gauge length 5 mm in diameter and 20 mm: long were machined from cast rods. The homogenizatign treatment consisted of .11*4 h at 365"c in the case of Zn-AI'lalloys, and lo4h at 370*C in the case of the Zn-Cu_~~Iloys_, The tensile tests were carried out at various temperatu;Ts covering the 2o to 400'C range. All alloys were subjected to static tensile tests which also provided data on the strength of these alloys; in addition, the Zn-AI and Zn-Cu alloys were tested under dynamic conditions, the rate of strain in this case being of the order of several m/sec. Side by side with the mechanical tests, microhardness measurements and metallographic examination were carried out (by engineer r,-A 1/4  S/136/60/000/011/011/013 E193/E483 On Plasticity of Some Zinc-Base Alloys N.S.Sakharova). The following conclusions were reacheds (1) Unalloyed zinc is characterized by two 9temperature ranges of high plasticity (150 to 230 and 350 to 400 C) and two brittle ranges (20 to 150 and 230 to 350*01 at temperatures above 400%, plasticity of zinc rapidly decreases, In this respect, electrolytic zinc differs little from granulated metalg except that the maximum values of plasticity, attained by the latter material, are somewhat higher. (2) The general character of the temperature- dependence of plasticity of zinc is unaffected by the introduction of small quantities of aluminium, copper, leadland cadmium.1 The position of the first maximum of plasticity changes from 200 to 1000C in the Al- and Cd-bearing alloys and to 125 - 1500C in the Cu- and Pb-bearing materials; the position of the second maximum is practically unaffected by the presence of these alloying additions. (3) With increasing content of the alloying additions studied, the plasticity of zinc decreases in the ranges of high plasticity and remains constant or slightly increases in the brittle temperature ranges. Cadmium reduces plasticity of zinc at all temperatures, its effect being most pronounced within the plastic  S/136/6o/ooo/oll/oll/o13 E193/E483 It On Plasticity of Some Zinc-Base Alloys temperature ranges. (4) Plasticity of Zn-Al alloys containing up to 0.25% Al is higher than that of pure zinc. (5) on changing the conditions of testing from static to dynamic, plasticity of zinc and Zn-Al alloys sharply increases and the second brittle range is, in the case of zinc, shifted towards the lower temperatures. no such effect has been observed in the Zn-Cu alloys. (6) prolonged homogenization treatment brings about a considerable increase in plasticity of the Zn-Cu and Zn-Al alloys. The first plastic temperature range becomes wider at the expense of the second brittle range, plasticity in the second brittle range increases and the aecond plastic temperature range becomes less well defined. (7) The temperature dependence of U.T.S. of pure zinc has two maxima, each of which is located in one of the plastic temperature ranges of this material. (8) The temperature dependence of U.T.S. of the Zn-Cu and Zn-Pb alloys has only one maximum in the first plastic temperature range. The corresponding curves for the Zn-Cd alloys have two maxima when the cadmium content is less than 2.0% and only one maximum in the case of alloys with more than 2.0% Cd. (9) U.T.S. of the Zn-Al alloys (both cast and homogenized) decreases Card 3/4  S/136/6o/ooo/oll/oll/013 E193/E483 On Plasticity of Some Zinc-Base Alloys with rising temperature, passes through a minimum at about 50*C and a maximum at 100*C, after which it gradually decreases again. (10) With increasing alloying content, U.T.S. of zinc generally increases at all temperatures. The Zn-Pb alloys which are subject to liquation effects are an exception to this rule. Also, U.T.S. of the Cd-rich (2 - 10% Cd) alloys at temperatures above 200'OC is lower than that of alloys with a lower cadmium content. (11) Hardness of the Zn-Al alloys decreases monotonically with rising temperature. There are 7 figures, 1 table and 10 references: 8 Soviet and 2 German. card 4/4  2o263 s/129/61/000/003/010/011 E073/E335 AUTHORS: Savitskiy, Ye.M., Doctor of Chemical Sciences, Professor, Duysemaliyev, U.K., ., Engineer TITLE: Mechanical Properties of Copper-vanadium and Nickel-vanadium Alloys at Elevated Temperatures PERIODICAL: Metallovedeniye I termicheskaya obrabotka metallov, 1961, No- 3, pp. 52 - 55 TEXT: The authors studied the mechanical properties at room and at elevated temperatures of copper- abd nickel-base alloys with admixtures of vanadium. The alloys were smelted In a high-frequency induction furnace in corundum crucibles inside an argon stream. From these, 300-9 ingots were produced, which were forged to 10 x 10 mm cross-section. These were then annealed in evacuated quartz ampules. Alloys of the system Cu-V were annealed at 900 OC for 50-1000hours and alloys of the system Ni-V were annealed at 1 000 C for 100 hours. The vanadium contents of the Cu-base alloys were 0.07, 0-34, 0.64, 2.25 and 3.29% and the nickel-base alloys contained 0.5, 1, 3, 5, 6 and 1040. The microstructure, hardness at room temperature, Card 1/6  20263 S/129/61/000/003/010/011 Mechanical Properties E073/E335 ductility and tensile strength were determined for deformed and for annealed specimens. The mechanical tests were carried out at 20, 100, 300, 500 and 700 OC. Specimens were preliminarily heated In an electric furnace to the required temperature and held at that temperature for 20 min. Microstructure investi- gations of alloys after homogenisation annealing indicate that specimens contained up to 0.07% V for a single phase, whIlst the others are two-phase alloys. The temperature dependence of the mechanical properties of Cu-V alloys is plotted in Fig. I - upper graph: relative contraction, %.?, % - lower graph: ultimate strength, S, kg/mm. Vanadium increases the hardness 2 whereby the highest hardness, 59 kg/mm , was obtained for a j '11 vanadium content in excess of 3%. Thus, additions of vanadium increase the hardness, strength and ductility of co -)per and reduce its tensile strength temperature coefficient. V-Ni alloys were investigated':by Pearson and Hume-Rothery (Ref- The authors of gr :LXi:vestigated Ni-V alloys with V c'' up t ~_Awztl"r_iiAnical properties of such alloys ontents Card 2/6  20263 S/129/61/000/003/010/011 Mechanical Properties .... E073/E335 at various temperatures are entered in Table 3 for V contents of 0-10%. Data are also given on the temperature coefficient of the strength of Ni and its alloys between 20 and 700 0C. V additions bring about an increase in hardness, strength and ductility and a decrease in the temperature coefficient of the tensile strength. The following conclusions are arrived at: 1) Vanadium is a useful deoxidation and alloying addition to Cu and Ni. Small addi Aons (up to 0.4 in Cu and up to 10,0' in NI) bring about an increase in the mechanical strength and a decrease in the temperature coefficient in the case of static tension. 2) Introduction of V into Cu eliminates the brittleness at 500 OC. There are 2 figures, 4 tables and 4 references: I Soviet and 3 non-Soviet. Card 3/6  20263 S/129/61/000/003/010/011 Mechanical Properties E073/E335 ASSOCIATIONS: Institut metallurgii AN SSSR (Institute of Metallurgy of the AS USSR) Institut yadernoy fiziki AN Kazakhskoy SSR (Institute of Nuclear Physics of the AS Kazakh SSR) Card 4/6  H 0 0 0 C\I 0 ralradu - 9 !aIIji;)WAo a0figra-LI130tuo v 0 a " :60118=3 visaill:URVII011ram ulau0so xmmzohHlf ~; Ex;)n socKimpure mettd.(1Ldausva.L -1 wtv 0 0 IrA H trl% . 7. gin ooj wt RY am LVI CQ CI tr~ H cn A%#9'0 g SZ A X 009 O# f mt Or IVZ 0 01 go, to 09 5zz 1:4 02 All 0 9 9'0 001 kD  20263. S/129/6i/ooo/oWolo/oll Mechanical Properties .... E073/E335 .Table 3: x T&d'Akga J u . Xlexamiqmmi cboktbi WikDO13 bOH POARWO Vemueparypax (v c,"t4ht, 1/0 COxeP*A"vIe Ban. ARX 0 Sw 7W k#IXA " * ' IIKCJ[b 58 45. 59.b 43 6' 60 . 21.0 '0.5 18 38 t iblo 0.5 61 -50 59,t 47 61.0 24,0 56,0 10' 67 8 't 0 11.0 62 52 64,0 49 74.0 23,'S 52.6 21 65 10 15:0 68 53 58,0 50 72,5 .28.0 59.'D 23 '6t. 11 64,0, 510 72 55- 48,6 52 72.0 3~.O *60,'0 24 40 12 58.0 - 7;0 78 5T 45,0 54 50.0 38,0 57,5 27 41 14 57.6 10.0 84 58 45,6 65 47.5 40,b 49,0 31 42 15 V15 r - Card 6/6  PRESNYAKOV, A.A.; DUYSEMALIYEV, U.K.; GHERVYAKOVA, V.V. Effect of small amounts of addition alloys on the serviceability of LS59-1 brass. Izv. AN Kazakh. SSR. Ser. met., obog. i ogneup. no.3: 99-104 161. 1 (XIRA 15: 1 ) (Brass--Metallurgy)  IUYSEMALI KV y , Thq c---c-r corner of' thp, diagrar, of tl- var~ad'wrn :;Y:itL-m. Vust.All Ka,,.,ik!,.,`,SR 111) llc:.5:-c,5-6Cj PA .17,  S/031/62/OOQ/005/002/002 B144/B136 '.UT'70RS: Savitskiy, Ye. M., Doctor of Chemical Sciences, Duysemaliyev, -j.,TTLE: Cu-corner of the constitution diagram of the copper-vanadium system FEKQDTCAL: Akademiya nauk Kazakhskoy SS.R. Vestnik, no. 5, 1952, 55 -60 TEXT: ~Iicrostructure, thermal, and x-ray difftaction analyses and danta on '-ardness, microhardness, and resistivity of Cu-V alloys are used to con- struct the Cu corner of the constitution diagram of the Cu-V system for ,;,,-';,eh reliable data viere still lacking. The alloy consisting of V (con- Taind,-11- 0.25 5 C, 0.02 cj'a IN 2P 0.0228 ~', 02' and up to 0.2 C/11 metal impurities) and electrolytic Cu (containing up to 0.05 % overall impurit-ies) is melted .Ln a corundum crucible in a high-frequency oven in Ar atmosphere. A bottom layer of V is covered with Cu purified from oxides. Uniform V d-istribution is obtained by remelting; then the samples are forged and OC r . annealed a'. 900 lor 50 - 100 hrs and their mi-crosection surface etched with HNO 3* I-licroscopidd analysis reveals lamination in the liquid state Card 1/2  S/031/62/000/005/002/Q92 Cu-corner of the constitution diagram ... B144/B138 in the 3 - 10 5 V range and a very inhomogeneous V distribution. 'Jish less than 3 5 V 1-=i1latio'n is not observed. X-ray analysis shows that the mat-rix is a solid solution of 0.32 - 0.04 ~~j by waiGht V in C-, while the i,-clusions are a solid solution of Cu in V containing 3.3 - ;.4 Cu. The solubility of V in Cu in solid state at diffe,rent temneratures is det-erMined by hardening.and increases with rising teM.Deratures; the inter- action. in the Cu-corner is peritectic. The temperature of the peritectic reaction is measured by differential thermal microanalysis. Additions of V u-n to 0-64 ,'j' by weight increase the temperature of initial fusion fro= 1087 to 11200C and the microhardness from 98 to 104 k&/mm2. Further addition has no effect. The Brinell hardness increases graduallv with -Lhe V content. The resistivity is hardly influenced at all. X-ray diffracticr, analysis detects 2 solid solutions in the alloys: a solid a-solution rich in Cu with a face-centered cubic lattice and a solid (3-solution rich in V with a body-centered cubic lattice. Introduction of V into the solid solution results in a slight increase of the Cu lattice parameter. There are 4 figures and 3 tables. r1ard 2/2 4  uul&VAL-IiEVS U.K.; NOVIKOV, A.V.; Unt.,AVfAKOVA, V.V.; FRIDIW, L.P. Increasing the technical and economic indices in the rolling of IS59-1 brass with complex additives in industrial conditions. Trudy Inst. met. i obog. AN Kazakh. SSR 7:105-1U 163. (1XIIHA i'1: 6)   i f 1. - ~ I ~ e 3~ - *. I . ~ - I -i - -~ 7 r - '-'!   DUYSEMALIYEV, U.K. , Effect of misch metal on the mechanical properties of certain industrial copper-base alloys. Trudy Inst. met. i obog. AN Kazakh. SSR M55-58 164. Cerium solubility in nickel and the mechanical propertles of nickel- cerium alloys. lbld.i59-62 (MIRA 18:7)  ACCESSION NR: AP4019500 8100781"10091003/0755/07S6 OT i TITLE: Solubility of cerium to nickel and machanicAl properties of nickel cerium alloys* SOURCE: ZhurrAl neorge ShimiL, vo 9, moo 3. 19641, 755-756 TOPIC TAGS: cerium solubility, nickel solubility$ cerium nickel alloy, mechanical property, microstructure, microhardness, Brinell hardness. electric resistance, cerium nickel solid solution, grain size, strength, ductility, solubility, Nisubsce ABSTRACT: The structure and properties of nickel-cerium alloy systemsp rich In nickel, were Investigated by analysing aLcrostructure and measuring micrahardness of the phases# Brinell hardness and electric resistancee Nickel alloys containing 0.05, 0.10, 0.20, 0*30 and 0e50 wto% cerium were studied* MLcrophotographs showed that 0.05% Ce forms a solid solution with HL and reduces the grain size, with more Ce two phases form& one containing Niscee comparison of microstructures shows that tbs solubility of Ce In ML at room temperature La only about 0*10 vto%o Card 1/2  :ACCESSION U: AP4019500 The solubility was also dateraluied at M. 900 and U0OC; It does not change sub with temperature and is msxim= at 120OC-- 0*125 wt*% Cee Hardness and microhard- ness increase with an Increase in Ce-content in the solid solutions of the annealed NL-Ce alloy, On transition Into two phases. hardness Increases only slightly. The strength Increases with the sidItLon of Ce within the limits of, the solid solution, from 49.6 to 53.4 kgJasi . Ductility Increases at ram teVer-! ature, attaining a maximum at 0*0S% Ceo Electric resistance Laicressos allotly with up to Osl% Ce; there to little change tbarafter to. 0*5% Cs* The Itain of limiting solubility of UL-Ce alloys was coustructede (hage arto bass 5 flas of/~he ASSOCUTIOU: InstL mistallurgii I obogashchenlys AN rAzSSR (Institute of Metallurgy and ts AN rAzSSR) SUBmn=: Oliu"3 MAU ACQ: 31Mav64 am: 00 SUB CODEI HL 001 Omni 000 A 2/2 1 Card  L 4 ~plf   ACI-171-3570N NR AF4044814 3 Nc ~zs M 0 1 ly toe "I" .-ire ~ C--~ T De  02  L N R nP4044814 ENMOSURE: C)l  nickal all ~,Hthflftv. rerium solid nolutim, -,eri,,Lrn alloy OY,  ~m~ I table and 5 figures.  I'LF11-M, iu.v. ,OAVITSIM, BARON, V.V.j lxjy -L-- pliase diagram of the system vamdium - COPPOr- Vest, All razakh, SSR 20 no.7:38-44 i1 164. (MIRA 17: 11)  DUYS124OV.s, u.=,,~~senovich; GOLUDEV, I., red., ZLOBIN, M.p tokhn. ~,-, 19, red. [Alma-Ata today and tomorrow) Alma-Ata segodnia i zavtra. Alma-Ata) Kazgosizdat, 1963. 173 p. (MIRA 17t2)  ILIYASOV, Sattar Illyasovich:DUYSMIALIYEV. T.De otv. red.; KOVALtCHUK, ljc- 16--t"J F V.V., red. izd-va; ANOKHI . *p t p if akhn, red, [Victory of socialist relations in the agriculture of Kirghizial Po- beda sotsialisticheskikh otnoohenii v sel;skom khoziaistve Kirgizii. Frunze, Izd-vo AN Kirgizakoi SSR, 1961. 81 p. (MIRA 14-:11) (Kirghizistan-Collective farms)  LID1210T, M., nauchnyy ootrudnik; BATYRGHAYEV, I.; LOPM&-SlMWDRIK. N.D.; KMAYEV, A.; IMANAMOV, B.: 5ULATKANMOT, K., kand.khim.nauk; INKS-MMALIT U--A.--X.t-AXBAM. A.; LUMV, 1,; GMVIN,- Y. L; BAXASOVA, Z.; KOVALSNOK, Z.P.; SHELMMINA, X.P.; BUGTJBAYEV, A.B., starshiy prepodavatell; BAYBULATOV, E.B., mladshiy nauchUy eotradnik; FILIPPOV, N.A., mladshiy nauchnyy sotrudnik; NAMBETA- KUNOV, T., aspirant; IMMULOV, A., aspirant; TURMAMBETOV, S., mladshiy nauchnvy sotrudnik; MUKHAMEDZIYEV, M.M., nauchnyy sotruldnik; KONURBATEV, A.O.; PAK, L.V.; RUDAKOV, O.L.; TCKTOSUNOV, A.; KULAKOVA, R.I.;,ASHIRAKHRANOV, Sh., aspirant; ALTSHBAYXV, B.; 51MANALIYEV, A.; AKHMOV, K.; POLONOVA, A.P.; NIKITINSKIY, Tu.I.; SHAMBETOV, S.Sh.; DZHUMBAYEV. B.0., nauchnyy sotrudnik; DIUMININ, I.G., red.; ANOKHINA, k.G.0 tekhnored, [Papers by Junior scientists of the Acridemy of Sciences of the Kirghiz S.S.R.] Trudy molodykh nauchnykh rabotnikov P Kirgizekoi SSR. Frunze, 1958. 411 p. (MIRA 12;3) (Continued on next card)  KYDTHOV,,K.---(continued) Card 2. 11 Akademiya nauk Kirgizokoy 65R, Yrtmze. 2. Institut khimii AN i;rg.SSR (for Kydynov). 3. Kirgizskiy gosuderetvenM univeraitst (for Bugoeyev). 4. Institut geologii AN Kirg.SSR (for Baybulatov). 5, Institut vodnogo khozysystva i energetiki AN Kirg.= (for rilipp*v). 6. Otdel fiziki i matematiki AN Kirg.SSR (for Kambetakunov, Imankulov). 7. Inatitut zoologii i parazitolo--ii AN Xirg.SSR (for Turmambetov). 8. Kirgizekiy meditainskiy institut (for Makhamdziyev). 9, Otdel pochvovedeniya AN Kirg.SSR (Ashirakhmanov). 10.1natitut betaniki AN Kirg.SSR (for Alyahbayev. %ltanaliyev, Akhmetov, Polonova, Hikitinskiy). 11. Institut istorii AIT Kirg.SSR (for bzlmmbayev). (Science--Collections)  DRUZHININ, I.G.; DUYSHENALITETA, N.D. Solubility of urea, and manganese sulfate in water and the solid phases present. Izv.AN Xir.SSR.8er.eetA tekh.nauk 2 no.3;85-92 ,6o. (MIRA 13:9) (Urea) (Manganese sulfate)  DUYSHENALIYEIVA, N.; SULAYMANKULOV, K.; DRUMININ, I.G. I Solubility, specific gravity, and viscosity isothems of the system ZnS04 CO (NH ) -H20 at 30'. Zhur.neorg.khim. 6 no.8:1919-192i Ag '6f. (MIRA 14:8) (Zinc sulfate) (Urea)  DRUZHININ, I.G.1 DUTSHENALI = AO N. Properties of double compounds of urea, manganese sulfate, and water. Izv.AN Kir.SSR.Ser.est.i takh.nauk 4 no.93123-127 062. WMA 16:4) (Urea) (Manganese sulfates)  DUYSHENALMVAp No; DRUZHININI I.G. z1on of complex compounds and the distribution of urea in a solid system and in solutions. Izv. AN Kir. SSR. Ser. sot. i tekh. nau3c 3 no.2:73--82 161. (MIRA 16:7) (Urea) (Complex compounds)  DUYSHENALIYEVA, N. "A Study of the Chemical Interaction of Urea With Man,~anese Sulfate"; dlz.t,~ert-it.ion for the degree of Candidate of Chemical Sciences I . "t, 11.twarded I.-I the Tixrdr~iazev Agecultural Acadwy,, 1962) 'Jzveal-l,~Ya Timirvazovskoy Sell skokhoz.,,ray3tvennoy Akademli. Moscow,, No. 2p i 232-236)  DUYSHEIT-71 Usenkan, Cand Fhyc-Y.%th Sci - (Olins) "Studies 6f 1 (1, the theory of spillunys. (The flat problem)." Frunze, 1959. 12 (MrGiz St.,,-te Univrr;~,). 160 copic-, (11M, '410-501 02) -7-  AUTHORt SOV/140 -58-2-7/20 TITLE: Investigations on'the Th7eoky of Overflows (Plane Iroolem) (Issledovaniya po teorii Yodoolivoy (plookaya sadacha)) PERIODICALi Izvestiya vysshik'h-u''ch'e~nykh savedeniy Whisterstya vysshego o~razi'ova'nfya SSSR, Maitemiatika, 1958, Nr 2, pp 61-83 (USSR) ABSTRACT: The author consIders.a.plane p-arallal-ipr tational motion of a heavy, incompressible,.ideal fluid over a hindrance consisting of rectilIzear.pieces. The velocity in a large distance from sums d -to be.. gimen. The author seeks the -amounta--af Ahe hindrauca,Ahs. fkas. aurfaae, and the local velocities. In the first approximation the proble -a is reduced to numerical quadratures according to the method of Marchi. 1 example..ia..computed and the data are compared with experimental results.ot--the author. There"are 5 tl&iis and 6 r4fereAcess, 4 of which are Soviet, I' German, and I ftalian. ASSOCIATIONsKiigixskiy goeudaretvennyy universitat (Kirghis State University) SUBMITTEM February 3. 1958 Card 1/1  13 88856 S/044j6O/OOO/OO7/O1O/O58 14.16oo C111/C222 AUTHORs Duysheyevq Esenkan TITLEi On the flowing out of a fluid under a shield (to the problem of Marchi) PERIODICAL: Referativnyy zhurnal. Matematika, no-7, 1960, 77- Abstract no-7538. In 9b: Materialy 8-y Nauchn. konferentaii professorsko-prepodovato sostava Fiz.-matem.fak. (Kirg. un-t). Frunze, 1959t 12-14 TEXT: The author applies the method elaborated in an earlier paper (abstract 7537) and considers the problem of the motion of a non- tenacious incompressible fluid'between parallel walls. The upper wall ends at the right side with a shield which is inclined to the axis of abscissas, while the horizontal lower wall at the right side has an obstacle with an infinitely broad horizontal threshold, where the obstacle to the axis of abscissas is inclined under the angle 9 0 It is assumed that the velocity at'. the top of the shield is gtVen.T4 analogous problem (only with a shield) was investigated by the Italian scientist Marchi who constructed a complicated and very approximate solution. The problem is solved by the author in the first approximation, Card 1/2  88856 S/044j6O/OOO/OO7/010/058 On the flowing out of a fluid... C111/G222 i.e. he determines only the two first coefficients of the expansion of power series of the logarithm of the velocity at the surface of the free ray which is unknown in advantage. The author determines the sought velocity, the aompression of the ray, and the depth in an arbitrary point. of the flow. The problem is brought up to a numerical example. [Abstracter's notet The above text is a full translation of the original Soviet abstract.] Card 2/2  S/169/62/000/007/112/149 D228/D307 AUTHORS: Duytseva, 14, A. and Zverev, N. I. TITLE: Foasibility of applying L. Kletter's method of fore- casting charts of the mean three-day N-850 values PERIODICAL: Referativnyy zhurnal, Geofizika, no. 7, 1962, 49, ab- stract 7B260 (Tr. Tsentr. in-ta prognozov, no. 116, 1962, 65-66) TEXT: The method, suggested by L. Kletter (Praktische !-;rfahrungen mit einer neuen Methode zur Ausarbeitung mittelfristiger Wetter- -prognosen, Arch. Meteorol., Geophys. und Bioklima~ol. A, 1956, Bd.. 99 H 2), was verified in conformity with the circulation conditions over the USSR's European territory. L. Kletter's method is based on the use of the linear regression equation, relating the mean three- day N-850 values to the values at 18 hre on the initial day. For the USSR's European part the regression coefficients were deter- mined by the method of least squares from the daily AT-850 charts -for Mosc6w, Leningrad, Kiev, and Sverdlovsk for January and July, Card 1/2  S/169/62/000/007/112//149 Possibility of applying D228/D307 1950-1952. Out of 27 forecasts 15 proved to be correct in sign, the other 12 being incorrect. The method does not give the dynamics Of the development of processes. The reason for the low justifiable- ness of the forecasts evidently consists of the fact that no ad- equate allowance is made for the regression equation's free term. Abstracter's note: Complete tranalation.-7 i:Card 2/2  DUYISEY~_,,.A-4- Flunotuations eastern wind no,U6&67-70 of the demarcation line between the western and components in different mnths. Trudy TSIP 162. ' (Winds) (1-aU 15 3 5)  FED', D.A. Fluctuations of planetary upper frontal zones of natural synoptic periods. Trudy TSIP no.120:34-43 163. (MIRA 16:6) (Weather forecasting) (Solar radiation)  DUYTSEVAI-M.A.; FEDI, D.A. Cold and heat waves in the European-U.S.S.R. Trudy TSIP no.123-. 3/,~62 163. (KRA 16sq)  ACCESSION NR: AX4035463 8/2546/63/000/121/0137/0143 AUTHOR: Duytoava, H. A.; Fed', D, A* TITLE: Strong cold and heat waves in the European territory of the SSSR SOURCE: Hoscow. Teentrallny*y LnetLtut prognosov. Trudy*, no. 127, 1963. Voprosy* sezonny*kh prognozov pogody* (Seasonal weather forecasting), 137-143 TOPIC TAG$: meteorology, climate, climatology, weather extreme, temperature, anomaly -ABSTRACT: The quthors provide a brief climatic description of strong cold and heat waves in the Europeanliterritory of the SSSR. The study was based on data for anomalies of mean daily air temperature at 22 standard stations uniformly dia- tributed over the European USSR during the period 1951-1960. By strong cold and !heat waves the authors mean cAses when the anomaly of mean daily air temperature (A t) is appreciable. The crLtavion used is A t >,; +10C. The following char- !acteriatice were determinedt number of days with At7l, t.10c, continuous duration of 'ouch periods and intensity of waves. It is noted that strong heat waves virtually ~never occur in July (one of the two -the studi6d); this phenomenon is primarily Card 1/6 "  .ACCESSION NR: AT4035463 ;characteristic of the cold season of the years when there is a strong variability of air temperature. The occurrence of these temperatures extremes is clear from a :series of maps (Figures 1-4 of the Suclosure); the patterns and causes of these ;distributions are elaborated in the text. orig. art. t1as: 4 figures. ASSOCIATION: Tsentrallay*y institut prognozov, Moscow (Central Institute of 4orecasts) SUBKrrTED: 00 DATS ACQ: 20N&764 ENCL: 04 SUB CODE: NO OF SOV: 001 Or 000 card  - _ Rj AT661644-6- 9OUR_CE-C'ODE_i__0 46/667ooo/1537004710063 ACC N AUTHOR; Duztseva Ho A#j Ped' Dt Ak , _ _ _ ORG.* none, TITLE: Formation of a seasonal air temperatur anomaly in relation to its distribuo tion over the Northern Hemisphere I SOURCE: 'Moscow. Teentrallpyy An y. Trudy, no. 153, 1966. Statis- ticheskiy~_u~e`&~ ~yAolgosiochnogo prognoza pogody (Statistical methods of long-range weather forecasting), 47-63 TOPIC TAGS: air temperature, atmospheric temperature, long range weather forecasting# statistic analysis ABSTRACT: Asynchronous relations of an air temperature anomaly at points of the Northern Hemisphere are examined, the most significant parameters of the relation are elicited, and on the basis of them, a statistical method is proposed for fore- casting the seasonal air temperature anomaly over the European territory of the Soviet Union. The investigation utilized the data on the mean seasonal air tempera- ture anomaly from 1901 to 1950 for 50 stations of the Northern Hemisphere. In the European part of the Soviet Union the authors took five stations, and for each of them the asynchronous relations between temperature anomalies for the season and tempera- ture anomalies in various regions of the Northern Hemisphere were elicited. A season .was understood to be a two-month period beginning with January-February. Charts for I Card 1/2  ACC NRt AT6028446 each season and of the air temperature anomaly were plotted to establish these re- lations and to determine the active, dynamically significant regions. On the basis of the dynamically significant-regions found it is possible to'compile forecasts of the seasonal air temperature anomaly. Such forecasts can be of two types: the sign of the anoiraly alone,lor the sign and magnitude of the air temperature anomaly. The forecast of the sign of the air temperature anomaly with respect to a dynamically significant region reduces tolthe following: the central part of the region with the t- greatest relation is selected.and the values of the air temperature anomaly in it during the two months,:are examined; then the sign of the anomaly is forecasted. To calculate the expected sign and magnitude of the air temperature anomaly, the latter is calculated for twolmonths at stations of the Northern Hemisphere which are used for the forecast; the forecast of,,the sign of the seasonal air temperature anomaly is compiled for stations of the European part of the Soviet Union; then the seasonal air temperature anomaly is calculated at two dynamically significant regions for stations in the European part of the Soviet Union. The obtained forecasts are matched ' The value of the anomaly based on the fore- . and the more reliable one is selected. casts was close to the actual values, the absolute error being on the average, about:- 1.60. Consequently, these forecasts are completely satisfactory. In the future the-~ authors propose to make a more-complete calculation of the initial information from the entire Northern Hemisphere and no~ only at individually selected regions. Orig. art. hast 3 tables and 7-figures. SUB CODE: 04/ SUBH DAM none/ ORIG* REF 1 003 Card 2/2  I U- - NALYUZHNYYO N.1 DUMOVs A.j inzh, po tekbnL%% basopaenooti Dust control. Sov-pahakhte 10 no.9t2O-21 8 161. (MIFA 14s8) 11 Zamestitell glavnogo inzhenera kombinata Luganskugoll (for Kalyuzhnyy). (Hine dusta)  4 N 04 1 C'.4- t-) DgOV, N.A. ---------- mmwwmw"W~- letter to the editor. Zhivotnovodstvo 20 no.2:86 7 158. (MIRA 11:1) (Stock and etockbreeding)  DUYUNWI I.K. 1 L~ . Calculating the inflow of water into drains under natural conditions of the Chu Valley. Izv*AN Kir.SSR.Ser.est.i tekh.nauk 2 no#4:103- 120 160. (mm 34:8) (Chu Valley-Drainage)  DUYUNOVI I. K., Cand Tech Sci -- (diss) "Research into the inflow of ground waters to drainage under the natural conditions of the Chuyskaya Valley." Moscow-Frunze, 1960. 24 pp; with graphs; (Ministry of Higher and Secondary Specialist Education RSFSR, Moscow Inst of Water Economy Engineers im V. R. Williams); 150 copies; price not given; (KL, 28-60, 160)  EZOOVICHI.A.S. (g;Frunze);'DUYUNOV, I.K. (g.Frunze) Utilization of ground waters for irrigation purposes by,the regulation of drainage. Gidr. i mel. 13 no-4:14,21 Ap 1. 04MA 14-W (Chu Valley-Water, Underground) (Drainage)  DUZI, P. D. Doc/, Tech Sci -- (diss) "History of the technology of aeronautics and aviation in the USSR." Mos,1957. 23 pp 21 cm. (Acad Sci USSR. Inst of History of Natural Science and Technology). 120 copies. (KL, 23-57, 111). -4#-  I/ DUZI. Petr Dmitriyevich- SQWOV, V.A., prof., doktor takhn.nBuk, general-mayor, xaslushennyy deystell nauki i tekhniki, retsenzent; GROMOV. U.N., prof., general-polkovnik, retsenzent; ANOSHCEMIKO, N.D.. prof., retsenzen~; BER OVICH, D.K., kand. tekhn.nauk, red,; HILLW=A, A.G., izdat.red.; ROZHIK, V.P., takhn.red. (History of aeronautics and aviation in the U.S.S.R.; perIcA of the First World War, 1914-19181 Istoriis vozdukhoplavaniia i avistaii v WxSR; period pervoi mirovoi voiny. 1914-1918 gg. Moskva, Gos.nauchno-tekhn.izd-vo Oborongiz, 1960. 298 p. (Aeronautics-History) (MIRA 13:11)  I- DUZ'p D.9 inzh* .q~ Water-covered rooles Prom. stroi. 39 no. 1124-27 161. (MIRA 14:1) 1. Nauchno-issledovatellskiy institut po stroitellstvu Akademil stroitelletva i arkhitektury SSSR v Rostove-na-Donu. (Roofing# Concrete) (Air condititoning)  DUZIP S.D... inzh, New type of leader head. Vod.i san.tekh. no-4:14-16 Ap 163. (MIRA 16:4) (Drainage,, House) 4 ,  SA'dCZUK, Antoni;-DU2-M,,M4 A note on the Interaction of shear and banding in plastic plates. Archiw mach 15 no. 3:411-426 163. 1. Department of Mechanics of Continuous Media, Institute of Basic Technical Problems, Polish Academy of Sciences, Warsaw.  DUZENKMCH, S.Yu.,,,,inzh., red.; KUROCHKIN, A.M.., inzh.,, red. [Instructions for designing silos for loose materials) Ukazaniia po proektirovaniiu silosov dlia sypuchikb me- terialov (SN 302-65). Moskva, Stroiizdat, 1965. 50 p. (MIRA 18:11) 1. Russia (2923- U.S.S.R.) Gosudarstvennyy komitet po delam stroitel'stva. %1~  KJRN, Rudolf, dipl. inz.; DUZEVIC, Dusko, dipl. inz. Fast coincidence gates. Automatika 5 no.6t486-489 164. 1. Jozef Stefan Nuclear Institute, Ljubljana.  PHASE I BOOK EXPLOITATION SOV15233 Duzhabua., Shalva Andreyevich, and A.Z. Churayan Obbenovaniye i=en4bniy nekotorykh trebovaniy "Norm i pravil stroitellstva v seysmicheakikh reyopakh" (Basis for the Change of Certain Requirements for Construction Norms and Specifications in Seismic Regions) Tbilisi, Izd-VO AN Gruzinskoy SSR,, 1960. 49 P- 500 copies printed. Sponsoring Agency: Akademiya nauk Grdzinskoy SSR. Institut stroitellnogo dela. Ed.: R.S. Lordkipanidze; Ed. of Publishing House: L.K. Sarkisyan; Tech. Fdq: A*R. Todua. FURPOSE: This booklet is intended for construction engineers and scientific vork- I ers of construction'research institutes. COVERAGE: The booklet contains a number of amendments to the 1957 regulations gov- erning the construction of earthquake-proof buildings in seismic regions of the USSR. The suggestion to make spans monoWhic Is considered to be especially im- portant. No personalities are mentioned. There are 7 references: 6 Soviet, Card-1/3-  VOZDVIZHENSKIYp V.M.;._PIZHAKp A.A. Measurement of microthickness by the application of small loads. Zav-.lab. 27 no.2:197-198 162. (MM 14:3) (Thickness measurement)(Metals--Testing) ;. 7N.  ~V.G. ~[Dt~~ I V. .R. ] . .*-I Meo*nimm of the cardtotonia effect plrodu~ed by the cardiac glytoiside pofrgolde. Fisiol. zhur. [Ukr.] 7 no-102-37 la-F .161. 1. Kafedra farmakologii ~iyevokogo meditsinakogo instituta. Im. akad. A-A-Rnvennl I+ast- (GMPRUSIM)  DUZHAKq V.G. [Duzhak, V.H.] Influence of gofruside on the cardiovascular system. Farmatsev. zhur. 16 no. 2:'67-69 161, (MIRA 14:4) le Kafedra, farmakologii Kiyevskogo maditainskogo institutap zav. 'kafedroy deystvitellnyy chlen Akademii meditsins4kh nauk SSSR prof. 0.1. Cherkes. . . (GOPRUSIDE) (CARDIOVASCULAR SYSTP4)  DUZ-n,-,Tll-!.ITSI,.IY, F. I. . - - 59o4. DUZ-YIIOTII.a.T.SKrf, F. 1. - Izbranny-jo p,-irtil. pod rA. V. N. Fanova. I M., (F:Lzkulitura i spo,t), lg,